Water filter

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A large-scale flocculation water filter
Water filters produced in Toledo, Ohio in 1895 out of Terracotta

A water filter removes impurities by lowering contamination of water using a fine physical barrier, a chemical process, or a biological process. Filters cleanse water to different extents, for purposes such as: providing agricultural irrigation, accessible drinking water, public and private aquariums, and the safe use of ponds and swimming pools.

Methods of filtration[edit]

Filters use sieving, adsorption, ion exchanges, biofilms and other processes to remove unwanted substances from water. Unlike a sieve or screen, a filter can potentially remove particles much smaller than the holes through which its water passes, such as Nitrates or germs like Cryptosporidium. [1]

Among the methods of filtration, notable examples are sedimentation, used to separate hard and suspended solids from water[2] and activated charcoal treatment, where the boiled water is poured through a piece of cloth to trap undesired residuals.[3] Additionally, the use of machinery to work on desalinization and purification of water through the transposal of it into multiple-filtration water tanks. This technique is aimed at the filtration of water on bigger scales, such as serving entire cities.[2]

These three methods are particularly relevant, as they trace back to centuries and are the base for many of the modern methods of filtration utilized today.

Types[edit]

Water treatment plant filters[edit]

Types of water filters include media filters, screen filters, disk filters, slow sand filter beds, rapid sand filters, cloth filters,[4] and biological filters such as algae scrubbers.

Illustration of a slow sand filter

Point-of-use filters[edit]

Water purifier

Point-of-use filters for home use include granular-activated carbon filters (GAC) used for carbon filtering, depth filter, metallic alloy filters, microporous ceramic filters, carbon block resin (CBR), microfiltration and ultrafiltration membranes. Some filters use more than one filtration method. An example of this is a multi-barrier system. Jug filters can be used for small quantities of drinking water. Some kettles have built-in filters, primarily to reduce limescale build-up.

Standard Flowmatic cartridge style filters are added to existing plumbing; the filter cartridges are cylinders 250 millimetres (10 in) long by 100 millimetres (4 in) in diameter. They are made by multiple manufactures and are available in 0.5-100 micron ratings as well as activated carbon.

Some common substances that filtration does not remove are arsenic, bacteria, chlorides, fluoride, nitrates, perechlorates, pharmaceuticals, sodium and viruses.[5]

Portable water filters[edit]

Water filters are used by hikers,[6] aid organizations during humanitarian emergencies, and the military. These filters are usually small, portable and lightweight (1-2 pounds/0.5-1.0 kg or less). These usually filter water by working a mechanical hand pump, although some use a siphon drip system to force water through while others are built into water bottles. Dirty water is pumped via a screen-filtered flexible silicon tube through a specialized filter, ending up in a container. These filters work to remove bacteria, protozoa and microbial cysts that can cause disease. Filters may have fine meshes that must be replaced or cleaned, and ceramic water filters must have its outside abraded when they have become clogged with impurities.

These water filters should not be confused with devices or tablets that disinfect water which remove or kill viruses such as hepatitis A and rotavirus.

Ceramic water filters[edit]

Ceramic filters represent low-cost solutions to water filtration and are widely adhered to despite being one of the oldest methods of filtration.[7] These filters are found not only inside the homes of families but also utilized in industrial engineering (as high-temperature filters) for several processes.[8]

The conventional ceramic filters used for day-to-day water consumption, known as candle-type filters, work with gravity and a central candle, which makes the filtration process significantly long.

Certification in the United States[edit]

Three organizations are accredited by the American National Standards Institute, and each one of them certified products using American National Standard Institute/National Science Foundation standards. Each American National Standards Institute/National Science Foundation standard requires verification of contaminant reduction performance claims, an evaluation of the unit, including its materials and structural integrity, and a review of the product labels and sales literature. Each certifies that home water treatment units meet or exceed National Standard Institute/National Science Foundation and Environmental Protection Agency drinking water standards. American National Standard Institute/National Science Foundation standards are issued in two different sets, one for health concerns (such as removal of specific contaminants (Standard 53, Health Effects) and one for aesthetic concerns (Aesthetic Effects, such as improving taste or appearance of water). Certification from these organizations will specify one or both of these specific standards.

NSF International[edit]

NSF International as it is now known started out as the National Sanitation Foundation in 1944 at the University of Michigan School of Public Health.[9] The NSF's water treatment Device Certification Program requires extensive product testing and unannounced audits of production facilities. One goal of this not for profit organization is to provide assurance to consumers that the water treatment devices they are purchasing meet the design, material, and performance requirements of national standards.[9]

Underwriters Laboratories[edit]

Underwriters Laboratories, Inc., is an independent, accredited testing and certification organization that certifies home water treatment units which meet or exceed EPA and American National Standard Institute/National Science Foundation drinking water standards of contaminant reduction, aesthetic concerns, structural integrity, and materials safety.

Water Quality Association[edit]

The Water Quality Association is a trade organization that tests water treatment equipment, and awards its Gold Seal to systems that meet or exceed ANSI/NSF standards for contaminant reduction performance, structural integrity, and materials safety.[10]

Filters that use reverse osmosis, those labeled as “absolute one micron filters,” or those labeled as certified by an American National Standards Institute (ANSI)- accredited organization to American National Standard Institute/National Science Foundation Standard 53 for “Cyst Removal” provide the greatest assurance of removing Cryptosporidium. As with all filters, follow the manufacturer’s instructions for filter use and replacement.[11]

Water polishing[edit]

The term water polishing can refer to any process that removes small (usually microscopic) particulate material, or removes very low concentrations of dissolved material from water. The process and its meaning vary from setting to setting: a manufacturer of aquarium filters may claim that its filters perform water polishing by capturing "micro particles" within nylon or polyester pads just as a chemical engineer can use the term to refer to the removal of magnetic resins from a solution by passing the solution over a bed of magnetic particulate.[12] In this sense, water polishing is simply another term for whole house water filtration systems. Polishing is also done on a large scale in water reclamation plants.[13]

History[edit]

The Ancient Egyptians used the water purification method to get clean water. [14]

4000 years ago, in India and China, Hindus devised the first drinking water standards. Hindus heated dirty water by boiling it and exposing it to sunlight or dipping it seven times in hot pieces of copper, then filtering it through earthen vessels and cooling it. This was an enlightened procedure to obtain sterilized drinking water as well as to keep it aesthetically pleasing. This method was directed at individuals and households rather than for use as a community water source. The Egyptians first discovered the principle of coagulation in water treatment after 1500 BC. They adapted a chemical called alum for the settling of suspended particles. [15]

Until the invention of the microscope, the existence of microscopic life was undiscovered. More than 200 years passed before the microscope was invented and the relationship between microorganisms and disease became clear. in the mid-19th century, cholera was proven to be transmitted by contaminated water. in the late 19th century, Louis Pasteur's theory of the particulate pathogen finally established a causal relationship between microorganisms and disease. Filtration as a method of water purification was established in the 18th century, and the first municipal water treatment plant was built in Scotland in 1832. However, the aesthetic value of water was important at the time, and effective water quality standards did not exist until the late 19th century. [15]

2,000 years ago, Mayan drinking water filtration systems used crystalline quartz and zeolite. Both minerals are used in modern water filtration. "The filters would have removed harmful microbes, nitrogen-rich compounds, heavy metals such as mercury and other toxins from the water".[16]

Persian engineer Al-Karaji (c. 953–1029) wrote a book, The Extraction of Hidden Waters, which gave an early description of a water filtration process.[17] During the 19th and 20th centuries, water filters for domestic water production were generally divided into slow sand filters and rapid sand filters (also called mechanical filters and American filters). While there were many small-scale water filtration systems prior to 1800, Paisley, Scotland is generally acknowledged as the first city to receive filtered water for an entire town. The Paisley filter began operation in 1804 and was an early type of slow sand filter. Throughout the 1800s, hundreds of slow sand filters were constructed in the UK and on the European continent. An intermittent slow sand filter was constructed and operated at Lawrence, Massachusetts in 1893 due to continuing typhoid fever epidemics caused by sewage contamination of the water supply.[18] The first continuously operating slow sand filter was designed by Allen Hazen for the city of Albany, New York in 1897.[19] The most comprehensive history of water filtration was published by Moses N. Baker in 1948 and reprinted in 1981.[18]

In the 1800s, mechanical filtration was an industrial process that depended on the addition of aluminium sulfate prior to the filtration process. The filtration rate for mechanical filtration was typically more than 60 times faster than slow sand filters, thus requiring significantly less land area. The first modern mechanical filtration plant in the U.S. was built at Little Falls, New Jersey for the East Jersey Water Company. George W. Fuller designed and supervised the construction of the plant which went into operation in 1902.[20] In 1924, John R. Baylis developed a fixed grid backwash assist system which consisted of pipes with nozzles that injected jets of water into the filter material during expansion.[21]


See also[edit]

References[edit]

  1. ^ "Choosing Home Water Filters & Other Water Treatment Systems | Drinking Water | Healthy Water | CDC". www.cdc.gov. 2021-02-08. Retrieved 2022-11-12.
  2. ^ a b Mays, Larry W. (2013-05-01). "A brief history of water filtration/sedimentation". Water Supply. 13 (3): 735–742. doi:10.2166/ws.2013.102. ISSN 1606-9749.
  3. ^ Ancient water technologies. Larry W. Mays. Dordrecht: Springer. 2010. ISBN 978-90-481-8632-7. OCLC 654396308.{{cite book}}: CS1 maint: others (link)
  4. ^ "Types of Filters". Mountain Empire Community College. Retrieved 2008-10-01.
  5. ^ "Contaminant Reduction Claims Guide - NSF International". Nsf.org. Retrieved 23 August 2018.
  6. ^ Leadem, Tim (2015-04-20). Hiking the West Coast of Vancouver Island: An Updated and Comprehensive Trail Guide. Greystone Books. ISBN 9781771641470.
  7. ^ "Performance and technical valuation of candle-type ceramic filter for water purification". rdcu.be. Retrieved 2022-12-04.
  8. ^ "Multi-objective optimization model of high-temperature ceramic filter". rdcu.be. Retrieved 2022-12-04.
  9. ^ a b "Mission, Values and History - NSF International". Nsf.org. Retrieved 2016-06-30.
  10. ^ "Who We Are". Lisle, IL: Water Quality Association. Retrieved 2018-05-02.
  11. ^ "Water Health Series: Filtration Facts". Washington, D.C.: United States Environmental Protection Agency (EPA). September 2005. Brochure. 816-K-05-002.
  12. ^ "Water Polishing Process." (Patent description.) Retrieved 2009-11-26.
  13. ^ "ALGAL TURF SCRUBBER SYSTEMS FOR POLLUTION CONTROL" (PDF). Hydromentia.com. Retrieved 2016-06-30.
  14. ^ "Beyond Hieroglyphs: The Art and Architecture of Ancient Egypt". Brewminate: A Bold Blend of News and Ideas. 2018-02-21. Retrieved 2022-12-04.
  15. ^ a b "Buffalo Water". Retrieved 2022-12-04.
  16. ^ "Ancient Maya built sophisticated water filters". phys.org. Retrieved 2020-12-03.
  17. ^ Ataie-Ashtiani, Behzad; Simmons, Craig T. (15 August 2019). "The millennium old hydrogeology textbook The Extraction of Hidden Waters by the Persian mathematician and engineer Abubakr Mohammad Karaji (c. 953–c. 1029)". Hydrology and Earth System Sciences Discussions: 1–19. doi:10.5194/hess-2019-407. ISSN 1027-5606.
  18. ^ a b Baker, Moses N. (1981). The Quest for Pure Water: the History of Water Purification from the Earliest Records to the Twentieth Century. 2nd Edition. Vol. 1. Denver: American Water Works Association, 64-80.
  19. ^ “Allen Hazen.” (1930). Jour. American Water Works Association. 22:9, 1268-70.
  20. ^ Fuller, George W. (1902). “The Filtration Works of the East Jersey Water Company, at Little Falls, New Jersey.” Transactions of the ASCE. 29 (February)): 153-202.
  21. ^ Baylis, John R. (1959). "Review of Filter Bed Design and Methods of Washing." Journal AWWA. 51:11 1433-54.

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